1. Estimating the Uncertainty of Streamgauging Techniques Using In Situ Collaborative Interlaboratory Experiments.
- Author
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Le Coz, J., Blanquart, B., Pobanz, K., Dramais, G., Pierrefeu, G., Hauet, A., and Despax, A.
- Subjects
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STREAM measurements , *HYDRAULIC measurements , *UNDERWATER acoustics , *METROLOGY , *WATER power research - Abstract
While the application of uncertainty propagation methods to hydrometry is still challenging, in situ collaborative interlaboratory experiments are a valuable tool for empirically estimating the uncertainty of stream gauging techniques in given measurement conditions. The authors propose a simple procedure for organizing such experiments and processing the results according to the authoritative ISO standards related to interlaboratory experiments, which are of common practice in many metrological fields. Beyond the computation and interpretation of the results, some issues are discussed regarding the estimation of the stream gauging technique bias in the absence of accurate enough discharge references in rivers; the uncertainty of the uncertainty estimates, according to the number of participants and repeated measurements; the criteria related to error sources that are possibly meaningful for categorizing measurement conditions. The interest and limitations of the in situ collaborative interlaboratory experiments are exemplified by an application to the hydro-acoustic profiler (ADCP) stream gauging technique conducted in 2010 at two different sites downstream of Génissiat hydropower plant in the Rhône river, France. Typically, the expanded uncertainty (with a probability level of 95%) of the average discharge over six successive transects varied from ±5% at one site with favorable conditions to ±9% at the other site due to unstable flow conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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